Micrel, Inc. SY10E016 SY100E016 SY10E016 8-BIT SYNCHRONOUS BINARY UP COUNTER SY100E016 DESCRIPTION FEATURES The SY10/100E016 are high-speed synchronous, presettable and cascadable 8-bit binary counters designed for use in new, high-performance ECL systems. Architecture and operation are the same as the Motorola MC10H016 in the MECL 10KH family, extended to 8 bits, as shown in the logic diagram. The counters feature internal feedback of TC, gated by the TCLD (terminal count load) pin. When TCLD is LOW, the TC feedback is disabled and counting proceeds continuously, with TC going LOW to indicate an all-HlGH state. When TCLD is HIGH, the TC feedback causes the counter to automatically reload upon TC = LOW, thus functioning as a programmable counter. 700MHz min. count frequency Extended 100E VEE range of -4.2V to -5.5V 1000ps CLK to Q, TC Internal, gated TC feedback 8 bits wide Fully synchronous counting and TC generation Asynchronous Master Reset Fully compatible with industry standard 10KH, 100K I/O levels Internal 75K input pulldown resistors Fully compatible with Motorola MC10E/100E016 Available in 28-pin PLCC package PIN NAMES Pin M9999-032006 hbwhelp@micrel.com or (408) 955-1690 Function P0-P7 Parallel Data (Preset) Inputs Q0-Q7 Data outputs CE Count Enable Control Input PE Parallel Load Enable Control Input MR Master Reset CLK Clock TC Terminal Count Output TCLD TC-Load Control Input VCCO VCC to Output Rev.: G 1 Amendment: /0 Issue Date: March 2006 SY10E016 SY100E016 Micrel, Inc. PACKAGE/ORDERING INFORMATION VCCO TC P5 P7 P6 CE PE Ordering Information(1) SY10E016JI 25 24 23 22 21 20 19 MR 26 18 Q7 CLK TCLD VEE 27 17 Q6 VCC Q5 28 1 NC 2 P0 P1 3 16 PLCC TOP VIEW J28-1 15 14 13 4 12 9 10 11 Q1 Q2 8 VCCO Q0 7 P4 6 P2 P3 5 Package Operating Type Range Part Number 28-Pin PLCC (J28-1) VCCO Q4 Q3 J28-1 Industrial Package Marking Lead Finish SY10E016JI Sn-Pb SY10E016JITR(2) J28-1 Industrial SY10E016JI Sn-Pb SY100E016JI J28-1 Industrial SY100E016JI Sn-Pb SY100E016JITR(2) J28-1 Industrial SY100E016JI Sn-Pb SY10E016JC J28-1 Commercial SY10E016JC Sn-Pb SY10E016JCTR(2) J28-1 Commercial SY10E016JC Sn-Pb SY100E016JC J28-1 Commercial SY100E016JC Sn-Pb SY100E016JCTR(2) J28-1 Commercial SY100E016JC Sn-Pb SY10E016JY(3) J28-1 Industrial SY10E016JY with Matte-Sn Pb-Free bar-line indicator SY10E016JYTR(2, 3) J28-1 Industrial SY10E016JYwith Matte-Sn Pb-Free bar-line indicator SY100E016JY(3) J28-1 Industrial SY100E016JY with Matte-Sn Pb-Free bar-line indicator SY100E016JYTR(2, 3) J28-1 Industrial SY100E016JY with Matte-Sn Pb-Free bar-line indicator Notes: 1. Contact factory for die availability. Dice are guaranteed at TA = 25C, DC Electricals only. 2. Tape and Reel. 3. Pb-Free package is recommended for new designs. M9999-032006 hbwhelp@micrel.com or (408) 955-1690 2 SY10E016 SY100E016 Micrel, Inc. BLOCK DIAGRAM TC Q7 BIT 7 P7 CE Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q2 - Q6 5 5 BIT 2 - BIT 6 5 5 5 Q1 BIT 1 P1 CE Q0 Q0 SLAVE Q0M Q0M MASTER BIT 0 PE M9999-032006 hbwhelp@micrel.com or (408) 955-1690 TCLD CE P0 3 MR CLK 5 SY10E016 SY100E016 Micrel, Inc. TRUTH TABLE(1) CE PE TCLD MR CLK Function X L X L Z Load Parallel (Pn to Qn) L H L L Z Continuous Count L H H L Z Count; Load Parallel on TC = LOW H H X L Z Hold X X X L ZZ X X X H Z Master respond, Slaves Hold Reset (Qn : = LOW, TC : = HIGH) NOTE: 1. Z = Clock Pulse (LOW-to-HIGH), ZZ = Clock Pulse (HIGH-to-LOW) DC ELECTRICAL CHARACTERISTICS VEE = VEE (Min.) to VEE (Max.); VCC = VCCO = GND TA = -40C Symbol Parameter TA = 0C Min. Typ. Max. Min. IIH Input HIGH Current IEE Power Supply Current 10E 100E Typ. TA = +25C TA = +85C Max. Min. Typ. Max. Min. Typ. Max. -- -- 150 -- -- 150 -- -- 150 -- -- 150 -- -- 151 151 181 181 -- -- 151 151 181 181 -- -- 151 151 181 181 -- -- 151 174 181 208 Unit A mA AC ELECTRICAL CHARACTERISTICS VEE = VEE (Min.) to VEE (Max.); VCC = VCCO = GND TA = -40C Symbol Parameter TA = 0C TA = 25C TA = +85C Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. Unit MHz fCOUNT Max. Count Frequency 700 900 -- 700 900 -- 700 900 -- 700 900 -- tPD Propagation Delay to Output CLK to Q MR to Q CLK to TC (Qs loaded)(1) CLK to TC (Qs unloaded)(1) MR to TC 600 600 550 550 625 725 775 775 700 775 1000 1000 1050 900 1000 600 600 550 550 625 725 775 775 700 775 1000 1000 1050 900 1000 600 600 550 550 625 725 775 775 700 775 1000 1000 1050 900 1000 600 600 550 550 625 725 775 775 700 775 1000 1000 1050 900 1000 Set-up Time Pn CE PE TCLD 150 600 600 500 -30 400 400 300 -- -- -- -- 150 600 600 500 -30 400 400 300 -- -- -- -- 150 600 600 500 -30 400 400 300 -- -- -- -- 150 600 600 500 -30 400 400 300 -- -- -- -- Hold Time Pn CE PE TCLD 250 0 0 100 30 -400 -400 -300 -- -- -- -- 250 0 0 100 30 -400 -400 -300 -- -- -- -- 250 0 0 100 30 -400 -400 -300 -- -- -- -- 250 0 0 100 30 -400 -400 -300 -- -- -- -- tRR Reset Recovery Time 900 700 -- 900 700 -- 900 700 -- 900 700 -- ps tWP Minimum Pulse Width CLK, MR 400 -- -- 400 -- -- 400 -- -- 400 -- -- ps tr tf Rise/Fall Times 20% to 80% 300 510 800 300 510 800 300 510 800 300 510 800 ps tS tH ps ps ps NOTE: 1. CLK to TC propagation delay is dependent on the loading of the Q outputs. With all of the Q outputs loaded, the noise generated in going from a IIII IIII state to a 0000 0000 state causes the CLk to TC+ delay to increase. M9999-032006 hbwhelp@micrel.com or (408) 955-1690 4 SY10E016 SY100E016 Micrel, Inc. FUNCTION TABLE Function PE CE P7-P4 P3 P2 Load L X L X Count H L L L Z H H H L L H H H L L H Z X X X X X H H H L H H H L L L Z X X X X X H H H H L H H L L L Z X X X X X H H H H H L H L L L Z X X X X X L L L L L H Load L X L X Z H H H L L H H H L L H Hold H H L X Z X X X X X H H H L L H H H L X Z X X X X X H H H L L H Load On H L L H Z H L H H L H H H L H H Terminal H L L H Z H L H H L H H H H L H Count H L L H Z H L H H L H H H H H L H L L H Z H L H H L H L H H L H H L L H Z H L H H L H L H H H H H L L H Z H L H H L H H L L L H X X H X X X X X X X L L L L L H Reset MR M9999-032006 hbwhelp@micrel.com or (408) 955-1690 TCLD CLK 5 P1 P0 Q7-Q4 Q3 Q2 Q1 Q0 TC SY10E016 SY100E016 Micrel, Inc. APPLICATIONS INFORMATION Cascading Multiple E016 Devices E016 in the chain to count all of the lower order terminal count outputs, it must be in the low state. The bit width of the counter can be increased or decreased by simply adding or subtracting E016 devices from Figure 1 and maintaining the logic pattern illustrated in the same figure. The maximum frequency of operation for the cascaded counter chain is set by the propagation delay of the TC output and the necessary set-up time of the CE input and the propagation delay through the OR gate controlling it (for 16bit counters the limitation is only the TC propagation delay and the CE set-up time). Figure 1 shows E101 gates used to control the count enable inputs; however, if the frequency of operation is lower, a slower ECL OR gate can be used. Using the worst case guarantees for these parameters from the ECLinPS data book, the maximum count frequency for a greater than 16-bit counter is 475MHz and that for a 16-bit counter is 625MHz. Note that this assumes the trace delay between the TC outputs and the CE inputs are negligible. If this is not the case, estimates of these delays need to be added to the calculations. For applications which call for larger than 8-bit counters, multiple E016s can be tied together to achieve very wide bit width counters. The active low terminal count (TC) output and count enable input (CE) greatly facilitate the cascading of E016 devices. Two E016s can be cascaded without the need for external gating; however, for counters wider than 16 bits, external OR gates are necessary for cascade implementations. Figure 1, below, pictorially illustrates the cascading of 4 E016s to build a 32-bit high frequency counter. Note the E101 gates used to OR the terminal count outputs of the lower order E016s to control the counting operation of the higher order bits. When the terminal count of the preceding device (or devices) goes low (the counter reaches an all 1s state), the more significant E016 is set in its count mode and will count one binary digit upon the next positive clock transition. In addition, the preceding devices will also count one bit, thus sending their terminal count outputs back to a high state, disabling the count operation of the more significant counters and placing them back into hold modes. Therefore, for an LOAD Q0-Q7 "LO" CE Q0-Q7 PE E016 LSB CLK CE Q0-Q7 PE CE E016 TC P0-P7 CLK PE CLK P0-P7 E101 CLOCK Figure 1. 32-Bit Cascaded E016 Counter M9999-032006 hbwhelp@micrel.com or (408) 955-1690 CE E016 TC P0-P7 Q0-Q7 6 PE E016 MSB TC CLK E101 P0-P7 TC SY10E016 SY100E016 Micrel, Inc. Programmable Divider To determine what value to load into the device to accomplish the desired division, the designer simply subtracts the binary equivalent of the desired divide ratio for the binary value for 256. As an example for a divide ration of 113: The E016 has been designed with a control pin which makes it ideal for use as an 8-bit programmable divider. The TCLD pin (load on terminal count), when asserted, reloads the data present at the parallel input pin (Pn's) upon reaching terminal count (an all 1s state on the outputs). Because this feedback is built internal to the chip, the programmable division operation will run at very nearly the same frequency as the maximum counting frequency of the device. Figure 2 below illustrates the input conditions necessary for utilizing the E016 as a programmable divider set up to divide by 113. PN's = 256 - 113 = 8F16 = 1000 1111 where P0 = LSB and P7 = MSB Forcing this input condition, as per the set-up in Figure 2, will result in the waveforms of Figure 3. Note that the TC output H L L L H H H H P7 P6 P5 P4 P3 P2 P1 P0 H PE L CE H TCLD TC CLK Q7 Q6 Q5 Q4 Q3 Q2 Q1 Q0 Figure 2. Mod 2 to 256 Programmable Divider LOAD 1001 0000 1001 0001 1111 1100 1111 1101 1111 1110 CLOCK PE TC Divide by 113 Figure 3. Divide by 113 E016 Programmable Divider Waveforms M9999-032006 hbwhelp@micrel.com or (408) 955-1690 7 1111 1111 LOAD SY10E016 SY100E016 Micrel, Inc. Divide Ratio P7 P6 P5 Preset Data Inputs P4 P3 2 H H H H 3 H H H 4 H H H 5 H H * * * * 112 P2 P1 P0 H H H L H H H L H H H H L L H H H L H H * * * * * * * * * * * * * * H L L H L L L L 113 H L L L H H H H 114 H L L L H H H L * * * * * * * * * * * * * * * * * * 254 L L L L L L H L 255 L L L L L L L H 256 L L L L L L L L Table 1. Preset Values for Various Divide Ratios two TC outputs were OR tied, the cascaded count operation would not operate properly. Because in the cascaded form the PE feedback is external and requires external gating, the maximum frequency of operation will be significantly less than the same operation in a single device. is used as the divide output and the pulse duration is equal to a full clock period. For even divide ratios twice the desired divide ratio can be loaded into the E016 and the TC output can feed the clock input of a toggle flip-flop to create a signal divided as desired with a 50% duty cycle. A single E016 can be used to divide by any ratio from 2 to 256, inclusive. If divide ratios of greater than 256 are needed, multiple E016s can be cascaded in a manner similar to that already discussed. When E016s are cascaded to build larger dividers, the TCLD pin will no longer provide a means for loading on terminal count. Because one does not want to reload the counters until all of the devices in the chain have reached terminal count, external gating of the TC pins must be used for multiple E016 divider chains. Figure 4 on the following page shows a typical block diagram of a 32-bit divider chain. Once again, the maximize the frequency of operation, E101 OR gates were used. For lower frequency applications, a slower OR gate could replace the E101. Note that for a 16-bit divider, the OR function feeding the PE (program enable) input CANNOT be replaced by a wire OR tie as the TC output of the least significant E016 must also feed the CE input of the most significant E016. If the M9999-032006 hbwhelp@micrel.com or (408) 955-1690 Maximizing E016 Count Frequency The E016 device produces nine fast transitioning singleended outputs; thus, VCC noise can become significant in situations where all of the outputs switch simultaneously in the same direction. This VCC noise can negatively impact the maximum frequency of operation of the device. Since the device does not need to have the Q outputs terminated to count properly, it is recommended that, if the outputs are not going to be used in the rest of the system, they should be left unterminated. In addition, if only a subset of the Q outputs are used in the system, only those outputs should be terminated. Not terminating the unused outputs will not only cut down the VCC noise generated, but will also save in total system power dissipation. Following these guidelines will allow designers to either be more aggressive in their designs, or provide them 8 SY10E016 SY100E016 Micrel, Inc. E101 Q0-Q7 Q0-Q7 "LO" CE PE PE CE E016 E016 LSB CLK CE Q0-Q7 TC P0-P7 CLK P0-P7 Q0-Q7 PE E016 CLK TC Figure 4. 32-Bit Cascaded E016 Programmable Divider 9 CLK TC P0-P7 E101 PE E016 MSB CLOCK M9999-032006 hbwhelp@micrel.com or (408) 955-1690 CE E101 P0-P7 TC SY10E016 SY100E016 Micrel, Inc. 28-PIN PLCC (J28-1) Rev. 03 MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 TEL + 1 (408) 944-0800 FAX + 1 (408) 474-1000 WEB USA http://www.micrel.com The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer. Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A Purchaser's use or sale of Micrel Products for use in life support appliances, devices or systems is at Purchaser's own risk and Purchaser agrees to fully indemnify Micrel for any damages resulting from such use or sale. (c) 2006 Micrel, Incorporated. M9999-032006 hbwhelp@micrel.com or (408) 955-1690 10